Spatial Integration of Somatosensory Inputs during Sensory-Motor Plasticity Phenomena Is Normal in Focal Hand Dystonia

Spatial Integration of Somatosensory Inputs during Sensory-Motor Plasticity Phenomena Is Normal in Focal Hand Dystonia

Background. Surround inhibition is a system that sharpens sensation by creating an inhibitory zone around the central core of activation. In the motor system, this mechanism probably contributes to the selection of voluntary movements, and it seems to be lost in dystonia. Objectives. To explore if s...

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Main Authors: C. Terranova, V. Rizzo, F. Morgante, R. Maggio, A. Calamuneri, G. Chillemi, P. Girlanda, A. Quartarone
Format: Article
Language:English
Published: Hindawi Limited 2018-01-01
Series:Neural Plasticity
Online Access:http://dx.doi.org/10.1155/2018/4135708
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spelling doaj-08a35f22bb64486191d0643492e46cf22020-11-24T20:45:32ZengHindawi LimitedNeural Plasticity2090-59041687-54432018-01-01201810.1155/2018/41357084135708Spatial Integration of Somatosensory Inputs during Sensory-Motor Plasticity Phenomena Is Normal in Focal Hand DystoniaC. Terranova0V. Rizzo1F. Morgante2R. Maggio3A. Calamuneri4G. Chillemi5P. Girlanda6A. Quartarone7Department of Clinical and Experimental Medicine, University of Messina, Messina, ItalyDepartment of Clinical and Experimental Medicine, University of Messina, Messina, ItalyDepartment of Clinical and Experimental Medicine, University of Messina, Messina, ItalyDepartment of Neurology, Humanitas Research Hospital, Rozzano, Milan, ItalyIRCCS Centro Neurolesi “Bonino Pulejo”, Messina, ItalyIRCCS Centro Neurolesi “Bonino Pulejo”, Messina, ItalyDepartment of Clinical and Experimental Medicine, University of Messina, Messina, ItalyIRCCS Centro Neurolesi “Bonino Pulejo”, Messina, ItalyBackground. Surround inhibition is a system that sharpens sensation by creating an inhibitory zone around the central core of activation. In the motor system, this mechanism probably contributes to the selection of voluntary movements, and it seems to be lost in dystonia. Objectives. To explore if sensory information is abnormally processed and integrated in focal hand dystonia (FHD) and if surround inhibition phenomena are operating during sensory-motor plasticity and somatosensory integration in normal humans and in patients with FHD. Methods. We looked at the MEP facilitation obtained after 5 Hz repetitive paired associative stimulation of median (PAS M), ulnar (PAS U), and median + ulnar nerve (PAS MU) stimulation in 8 normal subjects and 8 FHD. We evaluated the ratio MU/(M + U) ∗ 100 and the spatial and temporal somatosensory integration recording the somatosensory evoked potentials (SEPs) evoked by a dual nerve input. Results. FHD had two main abnormalities: first, the amount of facilitation was larger than normal subjects; second, the spatial specificity was lost. The MU/(M + U) ∗ 100 ratio was similar in healthy subjects and in FHD patients, and the somatosensory integration was normal in this subset of patients. Conclusions. The inhibitory integration of somatosensory inputs and the somatosensory inhibition are normal in patients with focal dystonia as well as lateral surrounding inhibition phenomena during sensory-motor plasticity in FHD.http://dx.doi.org/10.1155/2018/4135708
collection DOAJ
language English
format Article
sources DOAJ
author C. Terranova
V. Rizzo
F. Morgante
R. Maggio
A. Calamuneri
G. Chillemi
P. Girlanda
A. Quartarone
spellingShingle C. Terranova
V. Rizzo
F. Morgante
R. Maggio
A. Calamuneri
G. Chillemi
P. Girlanda
A. Quartarone
Spatial Integration of Somatosensory Inputs during Sensory-Motor Plasticity Phenomena Is Normal in Focal Hand Dystonia
Neural Plasticity
author_facet C. Terranova
V. Rizzo
F. Morgante
R. Maggio
A. Calamuneri
G. Chillemi
P. Girlanda
A. Quartarone
author_sort C. Terranova
title Spatial Integration of Somatosensory Inputs during Sensory-Motor Plasticity Phenomena Is Normal in Focal Hand Dystonia
title_short Spatial Integration of Somatosensory Inputs during Sensory-Motor Plasticity Phenomena Is Normal in Focal Hand Dystonia
title_full Spatial Integration of Somatosensory Inputs during Sensory-Motor Plasticity Phenomena Is Normal in Focal Hand Dystonia
title_fullStr Spatial Integration of Somatosensory Inputs during Sensory-Motor Plasticity Phenomena Is Normal in Focal Hand Dystonia
title_full_unstemmed Spatial Integration of Somatosensory Inputs during Sensory-Motor Plasticity Phenomena Is Normal in Focal Hand Dystonia
title_sort spatial integration of somatosensory inputs during sensory-motor plasticity phenomena is normal in focal hand dystonia
publisher Hindawi Limited
series Neural Plasticity
issn 2090-5904
1687-5443
publishDate 2018-01-01
description Background. Surround inhibition is a system that sharpens sensation by creating an inhibitory zone around the central core of activation. In the motor system, this mechanism probably contributes to the selection of voluntary movements, and it seems to be lost in dystonia. Objectives. To explore if sensory information is abnormally processed and integrated in focal hand dystonia (FHD) and if surround inhibition phenomena are operating during sensory-motor plasticity and somatosensory integration in normal humans and in patients with FHD. Methods. We looked at the MEP facilitation obtained after 5 Hz repetitive paired associative stimulation of median (PAS M), ulnar (PAS U), and median + ulnar nerve (PAS MU) stimulation in 8 normal subjects and 8 FHD. We evaluated the ratio MU/(M + U) ∗ 100 and the spatial and temporal somatosensory integration recording the somatosensory evoked potentials (SEPs) evoked by a dual nerve input. Results. FHD had two main abnormalities: first, the amount of facilitation was larger than normal subjects; second, the spatial specificity was lost. The MU/(M + U) ∗ 100 ratio was similar in healthy subjects and in FHD patients, and the somatosensory integration was normal in this subset of patients. Conclusions. The inhibitory integration of somatosensory inputs and the somatosensory inhibition are normal in patients with focal dystonia as well as lateral surrounding inhibition phenomena during sensory-motor plasticity in FHD.
url http://dx.doi.org/10.1155/2018/4135708
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